some medicinal bryophytes: their ethnobotanical uses and … · visual habitat as to habitat...
TRANSCRIPT
49
Some Medicinal Bryophytes: their Ethnobotanical Uses and Morphology
ANDREA G. [email protected] G. [email protected]
MELANIE P. [email protected]
Central Mindanao University,Musuan, Bukidnon, Philippines
Date Submitted: June 22, 2011 Final Revision Accepted: July 15, 2011
Abstract - Medicinal bryophytes and their morphological features and ethnic uses were examined and documented. Field collections of bryophytes were made through transect walks along the two mountain sites of Bukidnon, namely: Mt. Kalatungan and Mt. Kitanglad. The number of taxa currently determined with medicinal properties was based from the collected species. The species with medicinal uses was generated from a pool of resources, literature review and scientific journals. Description on their morphological characters was made using microscopic examinations. Taxonomic characters used include leaf orientation, stem structure, sporophyte characters and their habit to classify into families, genera and species. Species composition between study sites was also compared. Visual habitat as to habitat preference and identification for each species was employed. Results of the study highlight the difference in the morphological features among species of medicinal bryophytes, their ethnic uses, and adaptations within the forested area. Mt. Kitanglad exhibited seventeen (17) species of medicinal bryophytes. Of these, eleven (11) are mosses belonging to seven (7) families in eleven (11) genera and six (6) liverworts belonging to five (5) families in six (6) genera. Mt. Kalatungan exhibited fourteen
Asian Journal of BiodiversityArt. #92, pp. 49-80
Vol. 2 December 2011CHED Accredited Research Journal, Category APrint ISSN 2094-1519 • Electronic ISSN 2244-0461doi: http://dx.doi.org/10.7828/ajob.v2i1.92
Asian Journal of Biodiversity
50
(14) species of medicinal bryophytes. Of these, eight (8) are mosses belonging to six (6) families in eight (8) genera and six (6) liverworts belonging to five (5) families in six (6) genera. The moss species with medicinal properties belongs to the genera Sphagnum, Polytrichum, Rhodobryum, Fissidens, Bryum, Mnium, Dawsonia, Philonotis, Pogonatum, Barbula and Plagiomnium. The liverworts species include Marchantia, Pallavicinia, Herbertus, Riccardia, Dumortiera and Plagiochila. The species under study exhibited antimicrobial activity, anti-tumor, anti-cancer, antileukemic activity and healing effects based from secondary data.
Keywords - ethnobotany, morphology, bryophytes, taxonomic treatment, floristic, ethnic uses
INTRODUCTION
Cryptogam studies specifically on bryophytes had been more dynamic due to more extensive inventory and collective activity among the biologists. The bryophytes which comprises the liverworts (Marchantiophyta), with 6,000 species, the hornworts (Anthocerotophyta) with 300 species, and mosses (Bryophyta) with 15,000 species were thought to be the second largest group of land plants after flowering plants and are pivotal in the early land plant evolution (Shaw and Renzalia, 2004). These groups are too small and are characterized by dominant perennial gametophytic stages, with relatively small, unbranched sporophyte that remain permanently attached to the maternal gametophyte (Cox et al. 2010). Recently, they include approximately 24,000 species worldwide and are important components in many forest ecosystems and constitute a major part of the biodiversity in moist environments, wetland, and mountain ecosystems (Hallingback and Hotsgetts 2000).
Further, bryophytes are important environmental indicators and have been used as predictors of past climate change to validate climate models and potential indicators of global warming (Gignac 2001). Reports showed that bryophytes can be important contributors to the total stream metabolism, nutrient cycling, food web interactions in streams and as direct food source for some invertebrates. More
51
Azuelo, Sariana & Pabualan
importantly, some species are of great source for herbal medicine. The Philippine moss flora had been bryologically documented in relation to taxonomic studies. Currently, diversity and ecological studies on bryophytes had been in some forests in Mindanao. As noted, diversity studies in Mt. Malindang (Azuelo 2005), and in Mt. Kitanglad (Azuelo et al. 2007) and Mt. Kalatungan ( Azuelo 2005, Lubos 2000) had been recently investigated. In fact, detailed analysis and comparison of the patterns of species diversity and of species-habitat relationships were noted useful in the development of strategies for the conservation of bryophytes (Hallingback and Tan 2010). However, to date there have been no attempts to document Philippine bryophytes as to its medicinal properties, ethnic uses and other valuable uses, thus the present study makes a stronger effort in documenting the bryofloral species inhabiting the forests under study.
Mt. Kalatungan and Mt. Kitanglad are both natural parks situated in Bukidnon. The former has an elevation up to 2,824 masl, and the latter has an elevation up to 2,938 masl. Both forests exhibited vegetation rich on its bryofloral species and showed high diversity patterns due to their habitat conditions and the habitat preference allowed them to grow and display unique morphological features thus reflecting the diversity status of the forests. However, the said forests are threatened by habitat conversion and negative environmental factors hence, there is a need therefore, to help maintain a rich bryophyte flora by conserving the sites and protective measures be given preference before they are in the verge of extinction. Since bryophytes are not well known to the general public, even among some conservationists, it is necessary to continue our effort to highlight the importance of their presence in nature and their beneficial role in the ecosystem and economic importance as medicinal source.
OBJECTIVES OF THE STUDY
Specifically, the study aimed to provide taxonomic data and morphological adaptations of some bryophytes identified with medicinal properties, assess the bryofloral species composition of the two natural parks, and determine the ethnic uses of medicinal bryophytes.
Some Medicinal Bryophytes...
Asian Journal of Biodiversity
52
MATERIALS AND METHODS
Survey of the Study SiteThe study was conducted at the two natural parks in Bukidnon
namely: Mt. Kalatungan and Mt. Kitanglad. The former is situated at Pangantucan, Bukidnon and is regarded as a rainforest ecosystem with an estimated area of 21,301.34 ha. The range consists of various peaks and is proclaimed as a protected area in March, 2000, while the latter is situated in Impasug-ong, Bukidnon. It consisted with several peaks and its vegetation around its range exhibit richness reflecting the diversity of the vegetation types.
Field survey and collections of bryophytes were done at three different vegetation types. Inventory and assessment of the bryophytes were done by a transect walk ( Alpha Taxonomy) for each vegetation type. This was done by listing all the bryophytes seen or collected along the trail. Collection and recording of species was done along a 5-meter area on each side of the transect line. In each site, a 20x20 meter quadrat was established to estimate the bryophyte cover using a calibrated plastic cord.
Preparation of Herbarium SpecimenThe collected specimen of bryophytes were placed in a plastic bags
with a field label data: altitude, collection number, collector’s name, date of collection, vegetation types, and their ecology and associated habitats. This was then air dried and placed in packet envelope and were properly labeled for herbarium vouchers. The herbaria were deposited at the CMU Museum Botanical Section.
Identification, Classification and Description of Bryophyte SpeciesThe specimen collected were identified, classified and described
morphologically by their diagnostic characters such as habit, habitat, leaf arrangement, stem structure and sporophyte characters (Yamaguchi, 1993). Identification was made using the existing herbaria and keys from books and scientific articles and journals. Further examinations was done through microscopy examinations.
Selection and Identification of Medicinal BryophytesFrom the collected species, the bryophytes with medicinal
53
properties were reassessed and given preference. Knowing their representative taxa, identification of uses was based from different sources such as literature review, scientific journals, on-line journals and website search. The species with potential medicinal value was reexamined using the noted taxonomic treatment and through microscopy analysis on the uniqueness of their structures for none of the recent reviews include a detailed description on its morphological features and habitat preference and habitat associations. Final listing of the medicinal bryophytes collected were highlighted in detail.
The present study likewise focused on the ethnic uses and other economic uses of the medicinal bryophytes. The current data given in the study were all primarily obtained from literature review, and the historical studies. Analysis of distribution patterns of the medicinal species in the two study sites were also noted.
Assessment of conservation status of bryophytes species may be rare, widespread, endemic, threatened or endangered was based on International Union for Conservation of Nature (IUCN) and from scientific journals and websites search. The new Annotated Philippine Moss Checklist by Tan and Iwatsuki (1991) was also used. Local assessment in this study include the rarity and distribution pattern of the species.
PhotographsPhotographs were made from the natural habitat of the species.
Information, Education and Communication (IEC) materials were prepared on medicinal species.
Research Ethics
Research Ethics was observed by getting a gratuitous permit from the Department of Environment and Natural Resources to conducat the study in the sampling sites and permit from the leader of the indigenous people who live in the area.
RESULTS AND DISCUSSION
A. The Study AreaMt. Kitanglad and Mt. Kalatungan are situated in Bukidnon,
Azuelo, Sariana & PabualanSome Medicinal Bryophytes...
Asian Journal of Biodiversity
54
Philippines. Both are natural parks, hence were declared a protected areas. The former is a volcanic Lanao-Bukidnon Highland with an area of 32,297 ha and with several peaks, and having an elevation of 2,938 masl, while the latter has an estimated area of 21,301.34 ha. with various peaks and an elevation of 2,824 masl. Both forests displayed natural diversity of its flora and fauna.
B. Taxonomy
The first phase of the study was a field inventory of the bryophytes flora in the two natural parks in Bukidon namely: Mt. Kitanglad and Mt. Kalatungan. The bryophytes were collected, classified and identified using taxonomic keys, existing herbaria, voucher specimens. Each species was described based habitat, diagnostic characters using hand lens and microscopes. Line drawing of each species is also shown for easy identification (Table 1).
The second phase in the study focused on the medicinal properties exhibited by the bryophytes based on the literature search from pool of resources of scientific journals, articles, online journals and websites (Table 2, 4, and 5).
Fig. 1. FAMILY BARTRAMIACEAEPhilonotis sp.1a) Plant habitatb) Leafc) Basal leaf cellsd) Apical leaf cells; drawn from x 400
Description: Plants slender and erect. Green when fresh and whitish yellow green when dry. Leaves spreading/ patent, oblong ovate, involute leaves. Leaf base plain. Leaf apex setaceous. Leaf
a)
b)
d)
c)
55
margin entire. Absence of alar cells. Costa up to apex. Capsule erect, acrocarpous, ovoid, absence of operculum, long seta.
Habitat: on tree trunk
Fig. 2. FAMILY BRYACEAERhodobryum giganteum (Schwaegr.) Par.a) Plant habit c) Basal leaf cellsb) Leaf d) Apical leaf cells; drawn from x 50
Description: Plants large, forming tufts. Dark green when fresh and green when dry. Leaves spreading/ patent, obovate, crisped leaves. Leaf base plain. Leaf apex obtuse and mucronate. Leaf margin serrate. Absence of alar cells. Costa below apex. Capsule pendulous, large, with hypophysis, conical operculum, large peristome teeth.
Habitat: on decayed log/litter
Fig. 3. FAMILY BRYACEAEBryum sp.
a)
Azuelo, Sariana & PabualanSome Medicinal Bryophytes...
a)
a)
(see next page for legend)
Asian Journal of Biodiversity
56
a) Plant habitb) Leafc) Basal leaf cellsd) Apical leaf cells; drawn from x 100
Description. Plants in tufts. Stems erect radiculose below, often subfloral innovations. Upper leaves usually larger, lower leaves small, lanceolate; costa ending in or near apex; cells linear or rhomboidal , thin-walled, smooth, often narrower in several rows at margins. Seta elongate; capsule inclined or pendulous, rarely erect, clavate or pyriform with a distinct, tapering neck; peristome double. 16 lanceolate teeth at outer, inner rudimentary or composed of 16 keeled segments alternating with teeth from a high basal membrane; lid short, conical.
Habitat: on soil, decayed rock surface
Fig. 4. FAMILY FISSIDENTACEAEFissidens nobilis Griff.a) Plant habitatb) Leafc) Basal leaf cellsd) Apical leaf cells; drawn from x 100
Description: Plants small to medium, quite robust, flattened leaves in one plane. Dark green when fresh and pale green when dry. Leaves spreading/ patent, oblong-lanceolate, with axillary leaves. Leaf base cordate. Leaf apex rounded obtuse. Leaf margin entire. Absence of alar cells. Costa up to apex, very distinct.
Habitat: on soil, rock surface
a)
a)
57
Fig. 5. FAMILY MNIACEAEPlagiomnium sp.a) Plant habitatb) Leafc) Basal leaf cellsd) Apical leaf cells; drawn from x 100
Description: Plants medium, slender, forming tufts or cushion. Dark green when fresh and pale yellow-green when dry. Leaves spreading/ patent, lingulate. Leaf base plain. Leaf apex apiculate, mucronate. Leaf margin dentate. Absence of alar cells. Costa up to apex, thick. Capsule inclined to pendulous, ovoid, quite long, several peristome teeth.
Habitat: on decayed log; soil
Fig. 6. FAMILY POLYTRICHACEAEDawsonia superba Grev.
a)
a)a)
b)
d)
c)
Azuelo, Sariana & PabualanSome Medicinal Bryophytes...
a)
(see next page for legend)
a)
Asian Journal of Biodiversity
58
a) Plant habitatb) Leafc) Basal leaf cellsd) Apical leaf cells; drawn from x 100
Description: Plants large, robust, erect stem. Dark green when fresh and dark brownish red with green when dry. Leaves spreading/ patent, linear, involute base. Leaf base plain. Leaf apex acute, mucronate. Leaf margin dentate. Absence of alar cells. Costa from base up apex.
Habitat: on soil
Fig. 7. FAMILY POLYTRICHACEAEPogonatum macrophyllum (Dozy &Molk.) Lindb.e) Plant habitatf) Leafg) Basal leaf cellsh) Apical leaf cells; drawn from x 100 Description: Plants large, robust, falcate, stems erect. Dark green
when fresh and green when dry. Leaves spreading/ patent, linear lanceolate, involute from base up to the apex. Leaf base plain. Leaf apex acute. Leaf margin dentate. Absence of alar cells. Costa up to apex, distinct. Capsule acrocarpous, erect, with hypophysis, several peristome teeth.
Habitat: on soil
a)
a)
a)
59
Fig. 8. FAMILY POTTIACEAEBarbula sp.a) Plant habitb) Leafc) Basal leaf cellsd) Apical leaf cells; drawn from x 100
Description: Plants small, robust, erect, forming tuft or cushion. Green when fresh and yellow green to brown when dry. Leaves spreading/ patent, lanceolate,involute. Leaf base cordate. Leaf apex setaceous. Leaf margin entire. Absence of alar cells. Costa up to apex, distinct.
Habitat: on tree trunk
Fig. 9. FAMILY SPHAGNACAESphagnum sericeum C. Mull.a) Plant habitat
a)
b)
d)
c)
a)
Azuelo, Sariana & PabualanSome Medicinal Bryophytes...
a)
Asian Journal of Biodiversity
60
b) Leafc) Basal leaf cellsd) Apical leaf cells; drawn from x 100
Description: Plants medium to large, slender. Yellow-green when fresh and whitish green when dry. Leaves spreading/ patent, oblong-lanceolate, slightly involute in two (2) sides. Leaf base plain. Leaf apex acute. Leaf margin entire. Absence of alar cells. Ecostate.
Habitat: on decayed log/ thick litter
A. Liverworts
Fig. 10. FAMILY ANEURACEAERiccardia sp.a) Plant habitb) Leafc) Leaf cells
Description: Thalloid liverworts. Green when fresh and blackish brown when dry. Pinnately branching. Forkingstem leaf.
Habitat: on soil; on decayed log
a)b)
c)
61
Fig. 11. FAMILY HERBERTACEAEHerbertus sp.a) Plant habit b) Leafc) Leaf cells
Description: Leafy liverworts. Reddish green when fresh and blackish brown when dry, branching. Leaves spreading/ patent at the upper end of the stem and imbricate at the lower part. Incubous. Lateral leaves stout, bifid;leaf base decurrent and broad; leaf margin entire. Absence of ventral/ underleaves. Presence of vitta.
Habitat: on decayed log
Fig. 12. FAMILY MARCHANTIACEAEDumortiera sp.a) Plant habit c) Leaf cellsb) Leaf
a)b)
c)
a) b)c)
Azuelo, Sariana & PabualanSome Medicinal Bryophytes...
Asian Journal of Biodiversity
62
Description: Thalloid liverwort. Green when fresh and dry. Leaves in many lobes, leaf base plain; leaf margin entire; leaf apex round. Presence of “vitta”.
Habitat: on decayed log, soil
Fig. 13. FAMILY MARCHANTIACEAEMarchantia polymorphaa)Plant habit b)Leaf c)Leaf cells
Description: Thalloid liverwort. Green when fresh and brownish green when dry, dichotomously branched, thick. Leaves in many lobes; leaf base plain; leaf margin entire; leaf apex round. Presence of antheridia arising on stalked disc-headed branched, the antheridophores. Presence of “costa”, thick.
Habitat: on soil
a)
63
Fig. 14. FAMILY PALLAVICINIACEAEPallavicinia sp.a) Plant habitb) Leafc) Leaf cells
Description: Thalloid liverworts. Green when fresh and greenish brown when dry, dichotomous branched. Leaves in many lobes; leaf base plain; leaf margin dentate; leaf apex round. Presence of “vitta”. Capsule pleurocarpous, oblong, very short seta, stout.
Habitat: on decayed log; soil
Fig. 15. FAMILY PLAGIOCHILACEAEPlagiochila sp.a) Plant habitb) Leafc) Leaf cells
a)
b) c)
a) b)
c)
Azuelo, Sariana & PabualanSome Medicinal Bryophytes...
Asian Journal of Biodiversity
64
Description: Leafy liverworts. Green when fresh and brown when dry, branching. Succubous. Lateral leaves cultriform, involute base, leaf base nearly decurrent; leaf margin dentate, not so observable; leaf apex obtuse. Ventral/underleaves spathulate, smaller.
Habitat: on decayed log
Table 1. Medicinal bryophytes, their morphology and habitat preference
Bryophytes Species Morphology features Habitat Preference
MOSSES
1. Bartramiaceae
Philonotis sp. Plants slender, erect. Green when fresh and whitish yellow green when dry. Leaves spreading/ patent, oblong ovate, involute leaves. Leaf base plain. Leaf apex setaceous. Leaf margin entire. Absence of alar cells. Costa up to apex. Capsule erect, acrocarpous, ovoid, absence of operculum, long seta.
on tree trunk
2. Bryaceae
Rhodobryum giganteum (Schwaegr.) Par.
Plants large size, forming tufts. Dark green when fresh and green when dry. Leaves spreading/ patent, obovate, crisped leaves. Leaf base plain. Leaf apex obtuse, mucronate. Leaf margin serrate. Absence of alar cells. Costa below apex. Capsule pendulous, large, with hypophysis, conical operculum, large peristome teeth.
on decayed log/ litter
Bryum sp. Plants in tufts. Stems erect radiculose below, often subfloral innovations. Upper leaves usually larger, lower leaves small, lanceolate; costa ending in or near apex; cells linear or rhomboidal , thin-walled, smooth, often narrower in several rows at margins. Seta elongate; capsule inclined or pendulous, rarely erect, clavate or pyriform with a distinct, tapering neck; peristome double.
on soil; decayed rock surface
65
3. Fissidentaceae
Fissidens nobilis Griff. Plants small to medium, quite robust, flattened leaves in one plane. Dark green when fresh and pale green when dry. Leaves spreading/ patent, oblong-lanceolate, with axillary leaves. Leaf base cordate. Leaf apex rounded obtuse. Leaf margin entire. Absence of alar cells. Costa up to apex, very distinct.
on rock surface; soil
4. Mniaceae
Plagiomnium sp. Plants medium, slender, forming tufts or cushion. Dark green when fresh and pale yellow-green when dry. Leaves spreading/ patent, lingulate. Leaf base plain. Leaf apex apiculate, mucronate. Leaf margin dentate. Absence of alar cells. Costa up to apex, thick. Capsule inclined to pendulous, ovoid, quite long, several peristome teeth.
on decayed log; soil
Mnium sp. Medium-sized. Leaves broad, abruptly pointed, firm, leathery; crispate when dry, oblong, short-pointed, usually bordered; serrate margins. Stems erect with upper leaves crowded in rosulate tufts, sterile branches often prostate and equally foliate. Seta terminal , elongate; capsule horizontal or erect; peristome double; calyptra small, cucullate.
on soil
5. Polytricaceae
Dawsonia superba Grev. Plants large, robust, erect stem. Dark green when fresh and dark brownish red with green when dry. Leaves spreading/ patent, linear, involute base. Leaf base plain. Leaf apex acute, mucronate. Leaf margin dentate. Absence of alar cells. Costa from base up to apex.
on soil
Pogonatum macrophyllum Dozy & Molk.
Plants large, robust, falcate, stems erect. Dark green when fresh and green when dry. Leaves spreading/ patent, linear lanceolate, involute from base up to the apex. Leaf base plain. Leaf apex acute. Leaf margin dentate. Absence of alar cells. Costa up to apex, distinct. Capsule acrocarpous, erect, with hypophysis, several peristome teeth.
on soil
Azuelo, Sariana & PabualanSome Medicinal Bryophytes...
Asian Journal of Biodiversity
66
Polytrichum sp.
Medium to robust plants. Erect, simple or sparingly branched stems. Leaves narrow, rigid, blade usually well differentiate from sheathing base; costa strong, percurrent to excurrent, often toothed on back above, usually broader on ventral surface and covered with thin, parallel, longitudinal lamellae. Seta elongate; capsule erect or inclined.
on rock; soil
6. Pottiaceae
Barbula sp.
Plants small, robust, erect, forming tuft or cushion. Green when fresh and yellow green to brown when dry. Leaves spreading/ patent, lanceolate,involute. Leaf base cordate. Leaf apex setaceous. Leaf margin entire. Absence of alar cells. Costa up to apex, distinct.
On tree trunk
7. Sphagnaceae
Sphagnum sericeum C. Mull.
Plants medium to large, slender. Yellow-green when fresh and whitish green when dry. Leaves spreading/ patent, oblong-lanceolate, slightly involute in two (2) sides. Leaf base plain. Leaf apex acute. Leaf margin entire. Absence of alar cells. Ecostate.
on decayed log/thick litter
LIVERWORTS
1. Aneuraceae
Riccardia sp. Thalloid liverworts. Green when fresh and blackish brown when dry. Pinnately branching. Forking stem leaf.
on soil; decayed log
2. Herbertaceae
Herbertus sp. Leafy liverworts. Reddish green when fresh and blackish brown when dry, branching. Leaves spreading/ patent at the upper end of the stem and imbricate at the lower part. Incubous. Lateral leaves stout, bifid;leaf base decurrent and broad; leaf margin entire. Absence of ventral/ underleaves. Presence of vitta.
on decayed log
67
3. Marchanticeae
Dumortiera sp.
Thalloid liverwort. Green when fresh and dry. Leaves in many lobes, leaf base plain; leaf margin entire; leaf apex round. Presence of “vitta”.
on decayed log; soil
Marchantia sp. Thalloid liverwort. Green when fresh and brownish green when dry, dichotomously branched, thick. Leaves in many lobes; leaf base plain; leaf margin entire; leaf apex round. Presence of antheridia arising on stalked disc-headed branched, the antheridophores. Presence of “costa”, thick.
on soil
4. Pallaviciniaceae
Pallavicinia sp. Thalloid liverworts. Green when fresh and greenish brown when dry, branched. Leaves in many lobes; leaf base plain; leaf margin entire; leaf apex round. Presence of “vita”.
on decayed log; soil
5. Plagiochilaceae
Plagiochila sp. Leafy liverworts. Green when fresh and brown when dry. Incubous. Lateral leaves cultriform-lingulate, leaf base plain; leaf margin entire; leaf apex toothed in one side, entire in the other side. Absence of ventral/ underleaves.
on decayed log
Table 2. List of medicinal bryophytes, their distribution, and medical uses
Medicinal Bryophytes Species
Place of Distribu-tion
Medical Uses Active Components
MOSSES
1. Bartramiaceae
Philonotis sp. Kit Heal burnsFor adenopharyngitis, antipyretic and anti-dotal (Asakawa, 2007)
Triterpenoidalsaponins
Azuelo, Sariana & PabualanSome Medicinal Bryophytes...
Asian Journal of Biodiversity
68
2. BryaceaeRhodobryum giganteum (Schwaegr.) Par.
Kit, Kal For cardiovascular problem and nervous prostration; to cure angina; anti-hypoxiaAntipyretic, diuretic and antihypertensive (Asakawa 2007)
P-hydroxycinnamic Acid
7-8 dihydroxycoumarin
Bryum sp. Kit Healing wounds, burns and bruises; cure fungal infections (Beike et al. 2010)
Triterpenoidalsaponins
3. FissidentaceaeFissidens nobilis Griff. Kit, Kal Diuretics and hair
growth stimulation tonics As antibacterial agent for swollen throats and other symptoms of bacterial infection
4. Mniaceae
Plagiomnium sp. Kit, Kal For infections and swellings
Triterpenoidalsaponins
Mnium sp. Kit Poultice to reduce pain of burns, bruises and wounds
1. Polytrichaceae
Dawsonia superba Grev. Kit, Kal Diuretics and hair growth stimulation; for treating colds
Pogonatum macrophyllum Dozy & Molk.
Kit, Kal To reduce inflamma-tion and fever, as de-tergent diuretic, laxa-tive and hemostatic agent
Polytrichum sp. Kit, Kal Healing burns, bruises and wounds; used against fever and in-flammation (Beike et al. 2010)Antipyretic and anti-dotal; for hemostasis, cuts, bleeding from gingivae
69
1. Pottiaceae Barbula sp. Kit, Kal Boiled as tea for treat-
ing colds; for fever and body aches (Sturtevant 1954)
7. Sphagnaceae
Sphagnum sericeum C. Mull.
Kit, Kal Dressing wounds, with anti-microbial propertiesFor skin ailments (insects bites, scabies, acne), hemorrhoids, treat eye disease
LIVERWORTS
1. Aneuraceae
Riccardia sp. Kit, Kal Exhibits anti-leukemic activity
Riccardins A (57) and B (58), Sacullatal (15)*
2. Herbertaceae
Herbertus sp. Kit, Kal As antiseptics, antidi-arrheal agents, expec-torants, astringents
1. Marchanticeae
Dumortiera hirsute Kit, Kal As source for antibi-otics
Marchantia polymorpha Kit, Kal As diuretics, for liver ailments, insect bites, boils and abscesses; treat pulmonary tuber-culosis; with growth-inhibiting substances; used to cure cuts, frac-tures, poisonous snake bites, burns, scalds and open wounds; for cardiovascular disease (Beike et al. 2010)
Marchantin A (61); MB-G (35a)
Marchantin D (65) and E (66)*
1. Pallaviciniaceae
Pallavicinia sp. Kit, Kal Extracts for antimicro-bial activity
Sacullatal (15)*
Azuelo, Sariana & PabualanSome Medicinal Bryophytes...
Asian Journal of Biodiversity
70
2. Plagiochilaceae
Plagiochila sp. Kit, Kal Exhibits anti-leukemic activity/ anti-microbial activity
Bicyclohumulenone (3), Plagiochiline A (13), Plagiochilide (81), Plagiochilal B (19); Men-thanemonoter-penoids*
Table 3. Number of families, genera and medicinal species of bryophytes in the two Natural Parks, Bukidnon
Study Area
Family Total Genera Total Species Total
Moss-es
Liver-worts
Moss-es
Liver-worts Mosses Liver-
worts
Mt. Kitanglad 7 5 12 11 6 17 11 6 17
Mt. Kalatungan 6 5 11 8 6 14 8 6 14
Table 4. Medical bryophytes and ethnobotanical practices and other uses
Bryophytes Species Ethnobotanical Practices/Other Uses
MOSSES
1. Bartramiaceae
Philonotis sp. Poultice as padding under splints to set broken bones
As chinking in temporary summer homes for shepherds use ( G.B. Pant and S.D. Tewari 1989)
Crushed unto a kind of paste and applied as a poultice by the Chinese and the Native Americans (D. K. Saxena & Harinder 2004)
71
2. Bryaceae
Rhodobryum giganteum (Schwaegr.) Par.
Extract to cure angina (Wu, 1977)
Prevent soil erosion of the slope of hills because the netted and wobbed protonema cover the exposed substrates (D. K. Saxena & Harinder 2004)
Can increase aorta blood transit by up to 30% in animals (D. K. Saxena & Harinder 2004)
Bryum sp. Poultice as padding under splints to set broken bonesExternal applications for fever and body aches (Sturtevant 1954)
3. Fissidentaceae
Fissidens nobilis Griff. Burned to put on their heads to encourage hair growth (Harris 2002)
4. Mniaceae
Plagiomnium sp. Poultice of crushed “leaves” used for blood blisters, breast abscesses
Mnium sp. Poultice as padding under splints to set broken bones
5. Polytrichaceae
Dawsonia superba Grev.
Pogonatum macrophyllum Dozy & Molk.
As inhibitors of soil erosion (D. K. Saxena & Harinder 2004)
Polytrichum sp. Boiled as tea for treating the cold (Gulabani 1974 in Beike et al 2010)
Women in labor chewed the moss to speed up labor process (Turner et al. 1983)
Used as nautical ropes (J.H. Dickson 1973)
Used to line as carpets during winter hibernation sites; when animals bury their food in wet forest they serve as line mats (J. Hyvonen 1990)
For bedding material
Used in landscape tray, an alternative horticultural art of Japan (D. K. Saxena & Harinder 2004)
Azuelo, Sariana & PabualanSome Medicinal Bryophytes...
Asian Journal of Biodiversity
72
6. Pottiaceae
Barbula sp. As antirheumatic (external) febrifuge; external applications for fever and body aches (Sturtevant 1954)
7. Sphagnaceae
Sphagnum sericeum C. Mull.
Brewed like a tea as heat tonic (Shevock 1997)
Used for construction when dried and blended with phenolic resins and pressed into heating mold (Ruel et al 1977)
As stuffed between timbers of houses to deaden sound (J. W. Thieret 1954)
Used by Russians to insulate homes and refrigerators (M.A. Sukhanov 1972; M. Ruel et al. 1977)
Used to mixed with light concrete and hydraulically pressed with Portland cement and water as peat crete
Used to line hiking boots, where it absorbs moisture and odor; and as lining diaper (L. Hedenas 1991; J.H. Bland 1971)
Used as sanitary napkins (L.M. Johnson Gottesfeld and D. H. Vitt, 1996)
As fillers between wooden posts of walls and shingles of roofes (B.C. Tan 2003)
As chinking between timbers in homes (J. Glime 2007)
Provide suitable substrates for the biological fixation of nitrogen in association with cyanobacteria (D. K. Saxena & Harinder, 2004)
Used in air layering, a method of propagating plants (D. K. Saxena & Harinder 2004)
Mixed with the soil or spread over the ground as a mulch (D. K. Saxena & Harinder 2004)
Helps to maintain moisture and prevent growth of weeds (D. K. Saxena & Harinder 2004)
73
Used as an effective filtering and absorption agent for the treatment of waste water and effluent of factories with acid and toxic discharge containing heavy etals (Ag, Cu, Cd, Hg, Fe, Sb and Pb) and organic substances such as oils, detergents, dyes and micro-organisms (D. K. Saxena & Harinder 2004)
An excellent material for shipment of plants of fresh vegetables and flowers; for hydrophysics gardening, and for storage of roots and bulbs; used in the manufacturing of insulator sheets for houses (D. K. Saxena & Harinder 2004)
Mixed with worl has ben used to prepare a cheap cloth (D. K. Saxena & Harinder 2004)
Is wet often used by nurserymen in India for sending or supplying live plants (D. K. Saxena & Harinder 2004)
Used as Sphagnum pads for dressing wounds (D. K. Saxena & Harinder 2004)
LIVERWORTS
1. Aneuraceae
Riccardia sp.
2. Herbertaceae
Herbertus sp. As chinking in temporary summer homes for shepherds use (G. B. Pant and S.D. Tewari 1989)
3. Marchanticeae
Dumortiera sp.
Marchantia sp. For boils and abscesses (D. K. Saxena & Harinder 2004)
4. Pallaviciniaceae
Pallavicinia sp.
5. Plagiochilaceae
Plagiochila sp. As chinking in temporary summer homes for shepherds use (G. B. Pant and S.D, Tewari 1989)Used as perfumes or as perfume components (Asakawa 2007)
Non-ionized organic acids and polyphenolic compounds (D. K. Saxena & Harinder 2004)
Azuelo, Sariana & PabualanSome Medicinal Bryophytes...
Asian Journal of Biodiversity
74
Table 5. List of Non-medicinal bryophytes covered in the study and their economic uses
Bryophytes Species Economic Uses
Mosses1. Leucobryaceae
Leucobryum glaucum For decorative arrangements such as floral arrangements and as cushions
2. Meteoriaceae
Floribundaria sp. As chinking in temporary summer homes for shepherds use (G. B. Pant and S.D. Tewari 1989)
Papillaria sp. As insect repellant and resistance to rot (G. B. Pant and S.D. Tewari 1989)
3. Neckeraceae
Neckera sp. Used to seal seams and cracks of boats and canoes (G. B. Pant and S.D. Tewari 1990)
Used for packing apples and planes in Western Himalayas (D. K. Saxena & Harinder 2004)
4. Thuidiaceae
Thuidium sp. As chinking in temporary summer homes for shepherds use (G. B. Pant and S.D. Tewari 1989)
Used as carpets for nativity scenes in USA
As insect repellant and resistance to rot (G. B. Pant and S.D. Tewari 1989)
Used for packing apples and planes in Western Himalayas (D. K. Saxena & Harinder 2004)
75
Fig 2. Graph on species richness of medicinal bryophytes to compare the two study are.
Fig. 1. Transect map of the two mountain sites.
Azuelo, Sariana & PabualanSome Medicinal Bryophytes...
Asian Journal of Biodiversity
76
B. Species Richness and Composition
A total of eleven (11) species of mosses and six (6) species of liverworts are in Mt. Kitanglad while eight (8) species of mosses and six (6) species of liverworts are in Mt. Kalatungan. These species were all reported with potential medicinal properties. The study identified seven (7) families, eleven (11) genera and eleven (11) species of mosses while five (5) families, six (6) genera and six (6) species of liverworts (Table 3 and Fig. 2). The moss species that were identified with medicinal properties include Sphagnum sericium, Polytrichum sp., Rhodobryum giganteum, Fissidens nobilis, Bryum sp., Mnium sp., Dawsonia superba, Philonotis sp., Pogonatum macrophyllum, Barbula sp. and Plagiomnium sp.The liverworts species include Marchantia polymorpha, Pallaviciniasp., Herbertus sp., Riccardia sp., Dumortiera hirsuta and Plagiochila sp. (Table 2).
CONCLUSIONS
The following conclusions were drawn:
1. A total of 17 species of medicinal bryophytes were collected in Mt. Kitanglad. Eleven (11) are mosses belonging to 7 families and 11 genera. Six (6) liverworts belonging to 5 families in 6 genera while Mt. Kalatungan exhibited 14 species of medicinal bryophytes. Of these, 8 are mosses belonging to 6 families in 8 genera and 6 liverworts belonging to 5 families in 6 genera. In terms of species richness, Mt. Kitanglad shows more diverse than Mt. Kalatungan.
2. The moss species were identified with medicinal properties include Sphagnum sericium, Polytrichum sp., Rhodobryum giganteum, Fissidens nobilis, Bryum sp., Mnium sp., Dawsonia superba, Philonotis sp., Pogonatum macrophyllum, Barbula sp. and Plagiomnium sp. The liverworts species include Marchantia polymorpha, Pallavicinia sp., Herbertus sp., Riccardia sp., Dumortiera hirsuta and Plagiochila sp.
3. Based on literature review, the mosses and liverworts were found to possess certain biological activity. As such the presences
77
of active components have been widely used as medicinal plants. Treatment include antimicrobial , antifungal activity, antidotal , diuretics, antipyretic, antileukemic, antitumor antihypertensive, antidiarrheal , anticancer, cardiovascular diseases, inflammation, fever, infections, wounds and skin diseases and healing effects. Likewise, other ethnic and valuable uses were noted.
4. Morphological diversity existed among species of bryophytes with medical properties. Each are distributed in various habitats with habitat preferences such as in soil, decayed logs, litters, tree trunks, rocks surfaces and decayed and non-decayed rocks.
RECOMMENDATIONS
It is noteworthy that species of bryophytes have placed taxonomic and ecological importance in the natural forest parks. More importantly, the literature review is an important tool to bryologists, taxonomists, scientists, biologists, students, and educators in providing the knowledge-based information on the potential medical uses. This would guide biotechnologists to investigate further research and explore bryotechnology as new avenues for applied research. With this, scientific investigation should be conducted in different forest types and reassess the active compounds present in the potential medicinal species of bryophytes through biological activity.
LITERATURE CITED
Asakawa, Y. 2007 Biologically active compounds from bryophytes. Pure Applied
Chemistry. 79: 557-580.
Asakawa, Y. 2008 Liverworts-potential source of medicinal compounds. Current
Pharmaceutical Design.Bentham Science Publishers.
Azuelo, Sariana & PabualanSome Medicinal Bryophytes...
Asian Journal of Biodiversity
78
Azuelo, A. G. 2005 Bryophyte flora of Mt. Malindang, Misamis Occidental ,
Philippines, Dissertation. Central Mindanao University.
Beike, A.K., E. Decker, F. Wolfgang. D. Lang, M. Verulit- Scheebaum, A. Zimmer, And R. Reski.
2010 Applied Bryology-Bryotechnology Tropical Bryology. 31: 22-32.
Cox, C. J., B. Goffinet, N. J. Wickett, S. B. Boles And A.J. Shaw.2010 Moss diversity: A molecular phylogenetic analysis of genera.
Phytotaxa : 175-195.
Gignac, L. D. 2001 New frontiers in bryology and lichenology: Bryophytes as
indicators of climate change. The Bryologist 104: 410-420.
Glime, J.M. 1991 Economic and ethnic uses of bryophytes. General Article.
Gulaban, A.1974 Bryophytes as economic plants. Botanica 14: 73-75.
Hallingback,T. and N. Hodgetts. 2000 Status survey and conservation action plan for bryophytes:
mosses, liverworts and hornworts. IUCN/SSC Bryophyte Specialist Group. IUCN, Gland, Switzerland and Cambridge, U.K. 106 pp.
Hallingback, T. And B.C. Tan.2010 Past and present activities and future strategy of bryophytes
conservation. Phytotaxa 9: 266-274.
Harris, E.2002 An examination of phylogenetic characters in mosses: Examples
from Fissidens Hedw. (Fissidentaceae: Musci). Presentation and abstract presented at the annual meeting of the American Bryological and Lichenological Society, 26-27 July 2002, Storrs,
79
CN, USA.
Lubos, L. C.2000 Taxonomy, species richness and distribution of mosses in
selected mountains in Mindanao. Dissertation. Central Mindanao University.
Mishler, B. D.1997 Major features of the evolution of bryophytes. Abstract: 22.
Pant, G. And Tewari, S. D. 1989 Various human uses of bryophytes in the Kumaun region of
Northwest Himalaya. Bryologist 92: 120-122.
Saxena, D.K. and Harinder.2004 Uses of bryophytes. Resonance. 9 (6): 56-65, D01:10.1007/
BF02839221
Shaw, A. J. and K. J. Renzaglia.2004 Phylogeny and diversification of bryophytes. American
Journal of botany 91: 1557-1581.
Sturtevant, W. 1954 The Mikasuki seminole: medical beliefs and practices. Ph. D.
Dissertation. Yale University, p. 203.
Tan, B. C. and Z. Iwatsuki 1991 A new annotated Philippine moss checklist. Harvard Papers n
Botany 3: 1-65.
Turner, N. J., Thomas, J., Carlson, B. F., and Ogilvie, R. T.1983 Ethnobotany of the Nitinaht Indians of Vancouver Island.
Victoria. British Columbia Provincial Museum, p. 59.
Wu, P. C. 1977 Rhodobryum giganteum(Schwaegr.) Par can be used for
Azuelo, Sariana & PabualanSome Medicinal Bryophytes...
Asian Journal of Biodiversity
80
Yakubik, K. 2000 The role of bryophytes in stream ecosystems. Undergraduate
Ecology Research Reports.Institute of Ecosystm Studies.
Yamaguchi, T. 1993 A revision of the genus Leucobryum(Musci) in Asia. Journal of
Hattori Botany Laboratory 73: 1-123.